Electronics, programming and robotics with ARDUINO and ESP32
ARDUINO is a free hardware microcontroller. It is very useful for learning electronics and coding at the same time. It is very estimating thanks to that we can solve problems and look at the results physically. Thanks to the size of its community and the openness of its philosophy, information is widely accessible. Arduino allows us to undertake countless projects of all kinds. In a way, it's a small door through which you can easily access the world of makers. Among others. In the particular case of the arduino, my main goal is to stimulate creativity and curiosity. In addition to allowing my student to acquire a level of competence which allows him to function alone. I am used to working with people of different ages. I believe in segmentation, visualization of progress, objective results and practice. Beyond these general lines, there is no rule or magic method. Some things work with some students and not with others. Adapting to needs is really the goal of private lessons. So I will do my best to find what motivates and helps my student.
Support courses in engineering sciences (automatics, electronics, signal processing, RDM, renewable energy, electrical engineering)
Hello, I am a doctoral student in electrical engineering and associate professor in engineering sciences, experienced in the field of electrical engineering, I offer support courses in the subjects of engineering sciences (Electronics, automatics, electrical engineering, automation, programming). Digital electronics Analog electronic electromagnetism (propagation of high frequency waves) Automatic (continuous, sampled) electrical engineering (transformers, electrical machines, switching power supply) C / c ++ programming, Assembler, ARM, STM32 renewable energy (wind, PV) engineering Sciences RDM Python,VHDL PIC Microprocessor and Microcontroller Signal processing and data acquisition Engineering Sciences These courses allow the student to get up to speed and regain confidence in all scientific subjects, just as they prepare him effectively for the Baccalaureate, the Preparatory Classes or various examinations of the engineering classes. COURSE OBJECTIVES AND PEDAGOGICAL APPROACH Resumption and deepening of fundamental concepts through exercises with course reminders. Put the student in a situation of questioning and research. Respond to individual issues and questions Exercise training in order to achieve real mastery of the content. Learn to build theoretical reasoning from observable facts or hypotheses. Specific preparation for higher education requirements (in-depth content, increase in work capacity, enrichment of scientific background) This educational approach is effective since it has often led me to interesting results with my students. Associate professor provides support courses in electrical engineering
Automation Signal Processing MATLAB Electronics VHDL Programming
..................................... (satisfied or refunded)........ ....... Electrical engineering expert PhD student in electrical engineering and renewable energies engineer in electrical engineering and industrial computing I offer home schooling courses to deal with the difficulties encountered by students during their schooling, These courses allow the student to get back to level and regain confidence in all scientific subjects, as well as effectively preparing him for the Baccalaureate, Preparatory Classes or various exams. ===Automatic (Servo-control and automatism regulation (discrete, continuous)======== ===Electrical engineering (electrical machines) and power electronics (inverter rectifier)======= ===Continuous and sampled signal processing================= ===VHDL programming, microcontroller and microprocessor (intel, ARM)============ ===High frequency electronics (transistor, diode, AOP, noise)============ ===Propagation of electromagnetic waves and antennas======== ===Analog and digital electronics (filters, flip-flops, sysml,Grafcet,amplifier)===== === Realization of electrical projects ===MATLAB ARDUINO Proteus ISIS === Renewable energies COURSE OBJECTIVES AND PEDAGOGICAL APPROACH Resumption and deepening of fundamental concepts through exercises with course reminders. Put the student in a situation of questioning and research. Respond to individual issues and questions Exercise training in order to achieve real mastery of the content. Learn to build theoretical reasoning from observable facts or hypotheses. Specific preparation for higher education requirements (in-depth content, increase in work capacity, enrichment of scientific background) This pedagogical approach is effective since it has often led me to interesting results with my students.
Electrical and Electronics Engineering, Microcontroller Projects
Teaching electrical and electronic engineering subjects through examples and practical explanations Examples of subjects that I can teach in Arabic and English: Microcontroller - Arduino - Embedded System - Electrical Machine - Power Electronics - Digital System Design - Digital Circuit - Programming in C And some other core subjects for electrical and electronic engineering major I am able to teach the Electrical and Electronics Engineering Subject with practical examples, some courses that I can teach: Microcontroller - Embedded System - Electrical Machine - Power Electronics - Digital System Design - Digital Circuit - Programming in C.
Tutoring in Electrical Engineering, Circuit Theory, Analogue and Digital Electronics
I graduated in Electrical Engineering and Electronics and Telecommunications at the University of Science and Technology(AGH). I will give tutoring in the theory of electrical circuits, electrical engineering and analog and digital systems. I provide additional materials. Welcome. Scope of assistance: - Electronic semiconductor components - Bipolar transistor - working point setting, small signal description, common collector, common emitter, common base - Differential amplifier - transition zone, polarization methods - Operational amplifier - circuits with an operational amplifier, negative feedback, non-linear amplifier application - Linear and pulse stabilizers - Analog electronic circuits - Digital electronic circuits - ADC / DAC converters - Current, voltage and magnetism issues - Non-isolated converters (boost, buck and buck-boost, SEPIC) - Non-isolated converters (flyback, forward, full-bridge, half-bridge, Push-Pull, Ćuk) - Resonant and ferroresonant converters - selective amplifiers - power amplifiers -stabilizers with continuous work - PLL phase coupling loop - network rectifiers - switching power supplies -high frequency technique and fast switching - Kirchoff's laws, delta-star / star-delta transform - Thevenin's theorem - loop potential method - the method of nodal potentials - methods of solving DC and sinusoidal current circuits, - crosses and filters - circuits containing magnetically coupled coils - operational amplifiers - transmission properties of linear systems - three-phase, - the phenomenon of resonance, - vector (phasor) charts of currents and voltages, - transient states - classical method I also provide assistance in the field of: - matlaba / simulinka, scilab, LTSpice, PSpice, Spice, Tina-TI, Falstad Simulator - Interfaces: CAN, I2C, SPI, UART - ADC converter - designing electronic diagrams in EAGLE, Altium. If you have any questions, write to me - I will answer up to 24 hours To facilitate cooperation, please include in the e-mail: - topics that I am supposed to help with, if you have tasks, you can attach them in the e-mail - since when you need help and for how long
Engineering Ethics, Leadership & Professionalism (Concepts and Cases)
Engineering Profession and Ethics is a complete study course on the role of ethics in engineering in their historical, philosophical and professional contexts. The course examines the impact of ethical theories and their application to issues encountered in the engineering profession, such as employee rights, whistleblowing, safety, risk and liability, professional responsibility to consumers and employers, conflicts of interest, codes of ethics, legal obligations, environmental and social responsibility. Through the use of real and hypothetical case studies, the course focuses on developing analysis techniques and applying them to ethical problems through independent critical thinking and moral sensitivity.
Introduction to Robotics along with C and Python programming
I am a Mechanical Engineer, who is always eager to share my knowledge and passion with high school, university students, and anyone who is interested in getting to know more about this fascinating world of robotics. Having experienced how education and practical skills are important in the career via various projects done in my college days from the simple ones such as accident prevention systems using an ultrasonic sensor to complex ones such as building a tri-copter drone, I would like to offer this class as an exciting opportunity to, experience the joys of robotics which I experienced while making those drones. The subject of the class will be fully customized to the interest, level, and motivation of the student. I am looking forward to seeing you in my class and helping you see build projects and experience that "Yipee ka yee" moment
Learn Analog Electronics With an Engineer and Graduate Professor.
By being an engineer who has experienced all the possibilities of stress that a student can encounter when understanding it, a teacher who has encumbered an experience for years, I have developed teaching and efficient methods in order to better explain to my students. For me, a student needs a logical explanation of things and a personalized follow-up in order to be able to better advance and develop their own skills. Distance courses: ----------------------------------- I can give distance lessons perfectly since I have a tablet on which I can work in the same way as if it were a notebook. The student can see everything I do live through screen sharing, and all they need is to use a computer. At the end of the course, I send him a copy of all the work done, which allows me to make sure that he has kept a clean record of the course spent together. Domains : -------------------------------------------------- ------------------ * Analog electronic: ------------------------------------------- - Semiconductor and PNP Junction - Diodes and transistors - Bipolar transistors and JFET (Static and dynamic analysis) - Operational amplifier in linear and non-linear mode - Frequency analysis (Bode, Nichols, Nyquist diagram ...) - Analog filtering - Analog Oscillator - Converters: CAN and CNA - Modulation - Differential amplifier - ... * Electrical engineering: -------------------------------- - Single-phase network - Three-phase network - Coil and magnetic circuit - Single-phase and three-phase transformers - Direct current machine (MCC) - Asynchronous Machine (MAS) - Synchronous Machine (MS) - Speed variators -.... * Power electronics: ---------------------------------------------- - Choppers - Rectifiers - Inverters - Dimmers - Speed variator -.... * Digital Electronics: ------------------------------------------- - Boolean algebra - Combinatorial systems - Sequential systems - Counters and decounters - Registers and memories - .... * Industrial Automation: ---------------------------------------- - Grafcet and GEMMA - State graph / state diagram - Programmable controllers (Siemens, Schnieder ...) - Programmable circuits (Microcontrollers, arduino ...) -.... * Linear automatic - Servo-control and regulation: -------------------------------------------------- ----------------------------------- - Laplace transformation - Transfer function - Functional diagrams - Dynamic performance of linear systems: Speed, Precision and Stability - The correctors: P, PI, PID, phase advance, phase delay, ... - Regulation and servoing - Digital servo -.... -------------------------------------------------- --------------- Additional Information Zoom or Google meet Whiteboard Anyway, I'll be there to help you move forward and love this area more. Are you ready to experience this learning adventure with me?
Robotics, Computer Science and Coding for Kids and Teens
One of the cornerstones of STEM education (Science, Technology, Engineering, and Mathematics) and the entryway to the new modern Industrial 4.0 era is robotics and computer science. In order to ask robots to perform jobs more precisely, building and programming them takes a great deal of background knowledge in engineering-related areas. However, in this course, there won't be any in-depth rocket science theory, and we'll start by learning how to build and code for our Simple Robot using only the most fundamental ideas and applications. Throughout the course you will learn : - Basics coding using Scratch Programming, - Basics robotics coding and building At the end of the course, you will team up with other students to compete in mini competition. With that result, you will be chosen to enroll in the following advanced levels. Course Duration - 10 weeks
Electrical Circuits, Control Systems, Electrical Instrumentation, Electrical Machines, and LaTex.
An electrical engineer and researcher with 3 years of industry experience and a master's degree. Hallo, I am Anil Gojiya from Gujarat, India. I have earned a Bachelor's degree in electrical engineering from Government Engineering College, Bhuj, India in 2015. I have completed my MTech in electrical engineering from the Institute of Infrastructure Technology Research and Management, Ahmedabad (IITRAM), India in 2017. My major teaching experience comprises teaching electrical engineering and mathematics subjects. I like doing things with my hands. I have also organized lab sessions for the basics of electrical and power electronics. So I have excellent practical exposure to these subjects.
Engineer sciences, mechanical engineering, and automatic control systems in systems
In this chapter, we explain the foundations and engineering rules in the field of mechanics, electricity and automatic control. We proceed according to the cognitive and perceptual level of the student to reach the level required of him, without relying on the recommended pedagogical methods for teaching this field. We also frame projects in the field.
Electrical Engineering Courses for Students :: Beginner and Advanced Levels
Electrical Engineer with more than 6 years of experience, offers personalized training support for future graduates, technicians and engineers: Module expertise: - LV/MV Distribution System - Electrical Network Engineering - Electrical engineering - Analog and digital electronics - Power electronics & VFD Applications, - Digital Transmission, - Software Training: Caneco BT, Etap V12.6, ISIS Proteus, Dialux, Rapsody .... As well, the supervision of students during the end-of-study internships You're welcome
Intro to Robotics (Control, Dynamics, Perception, Reasoning)
Want to learn about the world of robots? Humanoids, rovers, drones, you name it! How do they see, feel, act and think? We can dive into their world in an easy to understand, but hands-on way using simulators! Do you also have a school/university subject related to this that you have difficulties grasping? You know nothing about robots or just watched a movie and you find them cool? Then let's talk! We can have a lesson, Q&A, assessment where we decide together how we can feed your curiosity.
Kouanang Jean Claude
Math and physics for engineers, AP physics, Statistics, Probability
Math and physics are essential for any student willing to pursue an engineering degree. The mastery of the basic concepts in math and physics are key to understanding engineering problems and propose solutions to those problems.You will learn the basic concepts of maths ranging from differential equations, to statistics , which will be very useful throughout your engineering journey.
Control Systems: Modeling in the frequency domain, Open and closed-loop systems, Time response, Reduction of multiple subsystems
I have a bachelor's and master's degree in electrical engineering with a focus on control systems. I specialize in tutoring WO/HBO/MBO students across the Netherlands. My goal is to keep the students challenged but not overwhelmed. Control Systems: Modeling in the frequency domain, Open and closed-loop systems, Time response, Reduction of multiple subsystems, frequency response techniques (Bode plot, Nyquist plot,).